If that’s the case, or if you’re simply interested in learning more about the Thymio, head over to Thymio & Aseba. There you can find an excellent guide on using the visual programming language (VPL) bundled with Aseba, to program the Thymio II. This guide includes an introduction to the Thymio II and the VPL, and contains a number of small projects of increasing complexity, designed to gradually introduce new features, sensors, actuators and ideas to the reader.

On the Thymio & Aseba site, you will also find numerous project examples (for example ball balancing, as pictured above), many of which include Aseba source code examples and an implementation discussion. You can also find various constructions, which take advantage of the Thymio’s LEGO Technic interoperability to build many weird and wonderful creations including cranes, funicular railways, walking robots and more.

Of these many project examples, three projects really stood out to me:

The simple pendulum, where the Thymio’s accelerometer is used to investigate the dynamics of a swinging pendulum;

The scales (shown below), where mechanical scales are built and the Thymio’s distance sensor used to digitize the weight measurement; and

The reflectivity measure, which uses the Thymio’s IR sensor to measure optical reflectivity of various objects at known distances, automated using the Thymio’s wheels to drive an arm mechanism.

These three examples demonstrate that robots, although cool in their own right, are also an excellent tool for learning more about the world around us.